"use strict";

Object.defineProperty(exports, "__esModule", {
  value: true
});
exports.createImmutableDenseMatrixClass = void 0;
var _is = require("../../utils/is.js");
var _object = require("../../utils/object.js");
var _factory = require("../../utils/factory.js");
const name = 'ImmutableDenseMatrix';
const dependencies = ['smaller', 'DenseMatrix'];
const createImmutableDenseMatrixClass = exports.createImmutableDenseMatrixClass = /* #__PURE__ */(0, _factory.factory)(name, dependencies, _ref => {
  let {
    smaller,
    DenseMatrix
  } = _ref;
  function ImmutableDenseMatrix(data, datatype) {
    if (!(this instanceof ImmutableDenseMatrix)) {
      throw new SyntaxError('Constructor must be called with the new operator');
    }
    if (datatype && !(0, _is.isString)(datatype)) {
      throw new Error('Invalid datatype: ' + datatype);
    }
    if ((0, _is.isMatrix)(data) || (0, _is.isArray)(data)) {
      // use DenseMatrix implementation
      const matrix = new DenseMatrix(data, datatype);
      // internal structures
      this._data = matrix._data;
      this._size = matrix._size;
      this._datatype = matrix._datatype;
      this._min = null;
      this._max = null;
    } else if (data && (0, _is.isArray)(data.data) && (0, _is.isArray)(data.size)) {
      // initialize fields from JSON representation
      this._data = data.data;
      this._size = data.size;
      this._datatype = data.datatype;
      this._min = typeof data.min !== 'undefined' ? data.min : null;
      this._max = typeof data.max !== 'undefined' ? data.max : null;
    } else if (data) {
      // unsupported type
      throw new TypeError('Unsupported type of data (' + (0, _is.typeOf)(data) + ')');
    } else {
      // nothing provided
      this._data = [];
      this._size = [0];
      this._datatype = datatype;
      this._min = null;
      this._max = null;
    }
  }
  ImmutableDenseMatrix.prototype = new DenseMatrix();

  /**
   * Attach type information
   */
  ImmutableDenseMatrix.prototype.type = 'ImmutableDenseMatrix';
  ImmutableDenseMatrix.prototype.isImmutableDenseMatrix = true;

  /**
   * Get a subset of the matrix, or replace a subset of the matrix.
   *
   * Usage:
   *     const subset = matrix.subset(index)               // retrieve subset
   *     const value = matrix.subset(index, replacement)   // replace subset
   *
   * @param {Index} index
   * @param {Array | ImmutableDenseMatrix | *} [replacement]
   * @param {*} [defaultValue=0]      Default value, filled in on new entries when
   *                                  the matrix is resized. If not provided,
   *                                  new matrix elements will be filled with zeros.
   */
  ImmutableDenseMatrix.prototype.subset = function (index) {
    switch (arguments.length) {
      case 1:
        {
          // use base implementation
          const m = DenseMatrix.prototype.subset.call(this, index);
          // check result is a matrix
          if ((0, _is.isMatrix)(m)) {
            // return immutable matrix
            return new ImmutableDenseMatrix({
              data: m._data,
              size: m._size,
              datatype: m._datatype
            });
          }
          return m;
        }
      // intentional fall through
      case 2:
      case 3:
        throw new Error('Cannot invoke set subset on an Immutable Matrix instance');
      default:
        throw new SyntaxError('Wrong number of arguments');
    }
  };

  /**
   * Replace a single element in the matrix.
   * @param {Number[]} index   Zero-based index
   * @param {*} value
   * @param {*} [defaultValue]        Default value, filled in on new entries when
   *                                  the matrix is resized. If not provided,
   *                                  new matrix elements will be left undefined.
   * @return {ImmutableDenseMatrix} self
   */
  ImmutableDenseMatrix.prototype.set = function () {
    throw new Error('Cannot invoke set on an Immutable Matrix instance');
  };

  /**
   * Resize the matrix to the given size. Returns a copy of the matrix when
   * `copy=true`, otherwise return the matrix itself (resize in place).
   *
   * @param {Number[]} size           The new size the matrix should have.
   * @param {*} [defaultValue=0]      Default value, filled in on new entries.
   *                                  If not provided, the matrix elements will
   *                                  be filled with zeros.
   * @param {boolean} [copy]          Return a resized copy of the matrix
   *
   * @return {Matrix}                 The resized matrix
   */
  ImmutableDenseMatrix.prototype.resize = function () {
    throw new Error('Cannot invoke resize on an Immutable Matrix instance');
  };

  /**
   * Disallows reshaping in favor of immutability.
   *
   * @throws {Error} Operation not allowed
   */
  ImmutableDenseMatrix.prototype.reshape = function () {
    throw new Error('Cannot invoke reshape on an Immutable Matrix instance');
  };

  /**
   * Create a clone of the matrix
   * @return {ImmutableDenseMatrix} clone
   */
  ImmutableDenseMatrix.prototype.clone = function () {
    return new ImmutableDenseMatrix({
      data: (0, _object.clone)(this._data),
      size: (0, _object.clone)(this._size),
      datatype: this._datatype
    });
  };

  /**
   * Get a JSON representation of the matrix
   * @returns {Object}
   */
  ImmutableDenseMatrix.prototype.toJSON = function () {
    return {
      mathjs: 'ImmutableDenseMatrix',
      data: this._data,
      size: this._size,
      datatype: this._datatype
    };
  };

  /**
   * Generate a matrix from a JSON object
   * @param {Object} json  An object structured like
   *                       `{"mathjs": "ImmutableDenseMatrix", data: [], size: []}`,
   *                       where mathjs is optional
   * @returns {ImmutableDenseMatrix}
   */
  ImmutableDenseMatrix.fromJSON = function (json) {
    return new ImmutableDenseMatrix(json);
  };

  /**
   * Swap rows i and j in Matrix.
   *
   * @param {Number} i       Matrix row index 1
   * @param {Number} j       Matrix row index 2
   *
   * @return {Matrix}        The matrix reference
   */
  ImmutableDenseMatrix.prototype.swapRows = function () {
    throw new Error('Cannot invoke swapRows on an Immutable Matrix instance');
  };

  /**
   * Calculate the minimum value in the set
   * @return {Number | undefined} min
   */
  ImmutableDenseMatrix.prototype.min = function () {
    // check min has been calculated before
    if (this._min === null) {
      // minimum
      let m = null;
      // compute min
      this.forEach(function (v) {
        if (m === null || smaller(v, m)) {
          m = v;
        }
      });
      this._min = m !== null ? m : undefined;
    }
    return this._min;
  };

  /**
   * Calculate the maximum value in the set
   * @return {Number | undefined} max
   */
  ImmutableDenseMatrix.prototype.max = function () {
    // check max has been calculated before
    if (this._max === null) {
      // maximum
      let m = null;
      // compute max
      this.forEach(function (v) {
        if (m === null || smaller(m, v)) {
          m = v;
        }
      });
      this._max = m !== null ? m : undefined;
    }
    return this._max;
  };
  return ImmutableDenseMatrix;
}, {
  isClass: true
});